Publications of RSM at the 39th International Symposium on Combustion
Ten contributions with participation of the RSM were presented at the internationally renowned conference in Vancouver
2022/12/15 by RSM
The RSM is represented at the 39th International Symposium on Combustion with a total of ten contributions that prevailed in the competitive review and ranking process. Organized by the Combustion Institute, the congress is the world's largest and most prestigious in the field of combustion research. The conference was held in Vancouver, Canada, from July 24-29, 2022. Papers are available as publications in the peer-reviewed journal . Proceedings of the Combustion Institute
Temperature dependent Raman spectra of pure, gaseous formaldehyde for combustion diagnostics
Kevin Dieter, Martin Richter, Johannes Trabold, Konrad Koschnick, Frank Schael, Andreas Dreizler, Dirk Geyer
Collaboration with the lab for Optical Diagnostics and Renewable Energies (ODEE) at Darmstadt University of Applied Sciences (h_da)
Extinction strain rates of premixed ammonia/hydrogen/nitrogen-air counterflow flames
Martin Richter, Robin Schultheis, James R Dawson, Andrea Gruber, Robert S Barlow, Andreas Dreizler, Dirk Geyer
Collaboration with the lab for and the Optical Diagnostics and Renewable Energies (ODEE) at Darmstadt University of Applied Sciences (h_da) Department of Energy and Process Engineering der Norwegian University of Science and Technology (NTNU)
Effect of flame retardants on side-wall quenching of partially premixed laminar flames
Matthias Steinhausen, Federica Ferraro, Max Schneider, Florian Zentgraf, Max Greifenstein, Andreas Dreizler, Christian Hasse, Arne Scholtissek
Collaboration with the group Simulation of reactive Thermo-Fluid Systems
On polyhedral structures of lean methane/hydrogen Bunsen flames: Combined experimental and numerical analysis
Haris Lulic, Adrian Breicher, Arne Scholtissek, Pasquale Eduardo Lapenna, Andreas Dreizler, Francesco Creta, Christian Hasse, Dirk Geyer, Federica Ferraro
Collaboration with the group , the lab for Simulation of reactive Thermo-Fluid Systems and the Optical Diagnostics and Renewable Energies (ODEE) at Darmstadt University of Applied Sciences (h_da) Department of Mechanical and Aerospace Engineering, Sapienza University of Rome
Fully-resolved simulations of volatile combustion and NOx formation from single coal particles in recycled flue gas environments
Ali Shamooni, Oliver T Stein, Andreas Kronenburg, Andreas M Kempf, Paulo Debiagi, Tao Li, Andreas Dreizler, Benjamin Böhm, Christian Hasse
Collaboration with the , the Institute for Combustion and Gas Dynamics (IVG), Universität Duisburg-Essen and the group Institute for Combustion Technology (ITV), Stuttgart University Simulation of reactive Thermo-Fluid Systems.